Advancements in Secure Communication, Predictive Maintenance, and Autonomous Navigation in 5G-Enabled Systems

Abstract

This paper discusses the latest advancements in secure communication, predictive maintenance, and autonomous navigation within the framework of 5G-enabled systems. The integration of 5G technology with Internet of Things (IoT) devices, unmanned aerial vehicles (UAVs), and network function virtualization (NFV) has profoundly influenced critical sectors such as healthcare, smart grids, and autonomous vehicles.
Secure authentication protocols are essential for safeguarding sensitive data in telemedicine and various remote medical applications, ensuring that patient information remains confidential and protected from unauthorized access. In parallel, predictive maintenance models utilize artificial intelligence and big data analytics to optimize the performance and reliability of smart grids, enabling timely interventions that reduce operational disruptions and enhance resource efficiency.
Moreover, autonomous navigation capabilities in GPS-denied environments are significantly improved through the implementation of multi-source data fusion techniques. These methodologies enhance the safety and efficiency of vehicle operations, particularly in complex urban landscapes where traditional navigation systems may falter.
The paper systematically reviews key research developments across these domains, elucidating the challenges encountered, the technological synergies realized, and the potential future applications of 5G-enabled solutions. By highlighting these advancements, the discussion aims to underscore the transformative impact of 5G technology on secure communication, maintenance optimization, and autonomous navigation, as well as the broader implications for modern infrastructure and societal progress.